Gene Information Plasmid Coverage information Fosmid Coverage information Sequence |
Gene Information |
Locus tag | Maeo_0945 |
Symbol | ileS |
ID | 5327661 |
Type | CDS |
Is gene spliced | No |
Is pseudo gene | No |
Organism name | Methanococcus aeolicus Nankai-3 |
Kingdom | Archaea |
Replicon accession | NC_009635 |
Strand | - |
Start bp | 971532 |
End bp | 974654 |
Gene Length | 3123 bp |
Protein Length | 1040 aa |
Translation table | 11 |
GC content | 31% |
IMG OID | 640788339 |
Product | isoleucyl-tRNA synthetase |
Protein accession | YP_001325136 |
Protein GI | 150401370 |
COG category | [J] Translation, ribosomal structure and biogenesis |
COG ID | [COG0060] Isoleucyl-tRNA synthetase |
TIGRFAM ID | [TIGR00392] isoleucyl-tRNA synthetase |
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Plasmid Coverage information |
Num covering plasmid clones | 12 |
Plasmid unclonability p-value | 1 |
Plasmid hitchhiking | No |
Plasmid clonability | normal |
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Fosmid Coverage information |
Num covering fosmid clones | n/a |
Fosmid unclonability p-value | n/a |
Fosmid Hitchhiker | n/a |
Fosmid clonability | n/a |
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Sequence |
Gene sequence | ATGAAAGAGA TAAAAGGGAA AGTAGATTTT AGAGAGATGG ATAAAGAAAT AAAAGAATTT TGGGAAAATA ATGAGATATA CCAAAAAGTA AAAAAATTAA ATGAAAATTA TCCAGATTAC TATTTTGTAG ATGGTCCGCC ATATTGTTCT GGGTCCATAC ATTTGGGAAC AGCTTGGAAT AAGACAATAA AAGATACCGT ATTAAGATTT AAAAGAATGC AAAACTACAA TGTGCTTGAT AAAGCAGGTT GGGATATGCA TGGACTACCT ATTGAGGTAA AGGTAGAGCA TGAATTTAAT TTGCAATCAA AGAAGGACAT CGAAACAAAA GTAGGAACTG ATGTATTTAT TGAAAAATGT AAAGAATTCG CCTTAAATAA TAAAGAGGTA ATGGAAAACC AATTTAAAAA TTTAGGAATA TGGCTCGACT GGGAAAATGC CTATCTACCA ATTAAAAATG ATTATATTGA AGCTGGTTGG TGGAGTTTAA AAAGAGCCCA CGAAAAAGAA TTATTATCAA AAGATTTAAG GGTTGGATAT TGGTGCCCAC GATGTGAAAC CTCATTGGCA GAACACGAGG TAAGGGGAGA ATATCAAGAT GTTTTAGACC CTTCTGTGTA TGTTAAATTT AAAGTGGCCG ATGATAATTC ATACCCAAAT ACATATTTTG TAATTTGGAC GACTACGCCA TGGACATTAA TATCAAACTT ATTAATTGCC GTAAATCCCG AATTTGACTA TGGATTTGTT GAAGTAATAT TTGACAATGA ACGAAAAGAA ACATGGGTAA TTGCAGAAGC ATTAGTTGAA GCCGTAATTA AACTGGCAAA AAAACAAAAT AATATTAAGT CATACAACAT AGTTAAAAAG GTAAAAGGGA AAGAATTAGA GGGAATAAAA TATGTTCCTG CATTATTGGA AGAAAATGAA AGACAAAAAG AGTTTTTCCA ATTAGAAAAA GTTCATACCA TAGTATTGGG GGAGCATGTT AGTTTAGACG GAGGAACCGG GTTAGTTCAT ACTGCCCCAG GATTTGGGGA GGAGGATTTT GAAGTTGGTA AAAAATATAA TTCACCAATT TACTCTCCAA TTGATGACGA AGGAAAATAT GTAGAGGGAA AATGGAAAGG AGTATTTGTA AAAGATGCAG ATGAAGATAT AATTGCTACC CTAACTGATA AAAATTTAAT AGTAAATGCC GGAAAGAAAA AGCACACATA CCCGCACTGT TGGAGGTGTA AAACCCCGTT ATTATTCAGA AGCACAGAAC AATGGTTTTT AAATATTTCT AAAATTAAAA ATAATATAGT AGAACATGCT AAAAACACTG ACTGGGTTCC AAACTGGGTA GAAACTCGAT ATATAAATGG TGTTAAATTT GTTGGGGATT GGAATATAAG CCGACAAAGA TATTGGGGAA TACCACTTCC AATTTGGATT TGTGAAAATA AGGACTGTGG AAAATATAAA ATAATTGGAA GTGTTGAGGA ATTAAAACAG GAAATGATAA ATGATATTCC AATTAATGAC GATTTACACA AACCAACCGT TGATAAAATT ATAATGAAAT GTGATTGCGG TTGTGAAATG AAAAGAACTC CGGATGTTCT TGATGTTTGG TATGACTCTG GATTAGCTCC TTACGCTTCA ATAAATGCAA AAGAATTAAA AAAGGCAGAT TTCATTGTAG AAGGAAATGA CCAAGTTACA AAATGGTTTT ACTCCCAACA TGCCCTTAGT GAAATTGTAT TCGATGACAT CCCATATAAA AAATGTATGA TGCATGGATT CACCCTCGAC GAAACTGGGG AAAAGATGAG TAAAAGTATT GGAAATGTGG TAAATCCTGA TGATGTTGTT GAGGAATTTG GAGCTGATTT ATTAAGATTT TATTTACTTA GTGCAAATAA GGCATGGGAG GATTTAAGAT TTTCAATTGG TGAAATGAAT GATGTAAAAA GTGTATTTAA TACTCTTTGG AATTCTTATT CATTTGCAGT TAATTATATG GTTCTTGATG ATTTCAGTCC AAATGAGGAA TATTTCAATT ATTTAAGAGA TGAGGATAAA TGGATAATAA GTAAAATAAA CTCCTTAACA AAAGAAGCAA TTGAAGTTTT AGAGATTCCG CATCTTCACG AATATACTTG GAAAGTTAGG GACTTTATAT TAAATGATTT AAGTAGATGG TATATTAAAC TTATAAGGAA CAGAACTTGG ATGGAAAAAG AAGACCCTGA CAAACTTTCA GCATATCAAA CCCTTTATTA TGTGTTAATG AAATTGGTCG TAATATTGGC ACCAGTTGCA CCACATATAA GCGAAAAAAT ATATCAAAAC TTGAAAATCG AGGGTATGCC ACAAAGTATA TTCATGACAA AAATTGTGGT CGAAGAGGAA TACATAAATA AAGAGGTAGA AGAAGGTATT GAAACAGCAA GGGAAATTGT AGATGCAATA CTTAAAGGAA GAGATAAGGT AAAATACACA CTTAGATATC CAATATCAAA AATAATATTA CCAAATGAAC TTGGGGATAT TGTAAATAAA TATCATTATA TTATAAAGGA ACAAGGAAAT GTTAAAAATA TAGAAGTTAA AGAATTTGAA GGAAATATAT CGTTAAAACC AAATTTCAGA ACATTAGGGG CTTCCTTTAA AAGTGATGTT CCAGCTGTTG TAAAAATTTT AAACTCTCAA AATCCAAAAG AATTAAAGGA TAAATTGGCA GAGGGAGAAA TAACAATAGA TGGATTTACA ATTAAACCAG AACATGTTGA ATTTAAAATA GATATTCCTG ATAACATTGT TGGTATGGAG CTCCGAAAAG GAAGTGTTTA TATTGACATA GAATTGACGG AAGAAATTAT AAAAGATGGA CTTAAACGAG AAGTAATAAG AAGAATTCAA TCAATGAGAA AAGATATGGA TTTAGACATT GAGGAAAAAA TAAAGATAAC AATGGAAGGC ATCGAATTTA ATGAAGATGC ATTAAAAGAC ATAGAAAAAG AAGTAAGAGG AACATTTGAG CCTACTATTG AATGTGATAA TATTCAAGAA TGGAATATAA AAACACCAAA CGGTGAAGTT TATAATTTGA AAATAGGAGT TAAAAAGAAT TAA
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Protein sequence | MKEIKGKVDF REMDKEIKEF WENNEIYQKV KKLNENYPDY YFVDGPPYCS GSIHLGTAWN KTIKDTVLRF KRMQNYNVLD KAGWDMHGLP IEVKVEHEFN LQSKKDIETK VGTDVFIEKC KEFALNNKEV MENQFKNLGI WLDWENAYLP IKNDYIEAGW WSLKRAHEKE LLSKDLRVGY WCPRCETSLA EHEVRGEYQD VLDPSVYVKF KVADDNSYPN TYFVIWTTTP WTLISNLLIA VNPEFDYGFV EVIFDNERKE TWVIAEALVE AVIKLAKKQN NIKSYNIVKK VKGKELEGIK YVPALLEENE RQKEFFQLEK VHTIVLGEHV SLDGGTGLVH TAPGFGEEDF EVGKKYNSPI YSPIDDEGKY VEGKWKGVFV KDADEDIIAT LTDKNLIVNA GKKKHTYPHC WRCKTPLLFR STEQWFLNIS KIKNNIVEHA KNTDWVPNWV ETRYINGVKF VGDWNISRQR YWGIPLPIWI CENKDCGKYK IIGSVEELKQ EMINDIPIND DLHKPTVDKI IMKCDCGCEM KRTPDVLDVW YDSGLAPYAS INAKELKKAD FIVEGNDQVT KWFYSQHALS EIVFDDIPYK KCMMHGFTLD ETGEKMSKSI GNVVNPDDVV EEFGADLLRF YLLSANKAWE DLRFSIGEMN DVKSVFNTLW NSYSFAVNYM VLDDFSPNEE YFNYLRDEDK WIISKINSLT KEAIEVLEIP HLHEYTWKVR DFILNDLSRW YIKLIRNRTW MEKEDPDKLS AYQTLYYVLM KLVVILAPVA PHISEKIYQN LKIEGMPQSI FMTKIVVEEE YINKEVEEGI ETAREIVDAI LKGRDKVKYT LRYPISKIIL PNELGDIVNK YHYIIKEQGN VKNIEVKEFE GNISLKPNFR TLGASFKSDV PAVVKILNSQ NPKELKDKLA EGEITIDGFT IKPEHVEFKI DIPDNIVGME LRKGSVYIDI ELTEEIIKDG LKREVIRRIQ SMRKDMDLDI EEKIKITMEG IEFNEDALKD IEKEVRGTFE PTIECDNIQE WNIKTPNGEV YNLKIGVKKN
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